The AP7110 series premium access points provide highly reliable and secure wireless services and radio frequencies for high-density or large scenarios, such as exhibition centers, medical organizations, factories, and logistics networks. This series is available in two models: AP7110SN-GN and AP7110DN-AGN.
AP7110DN-AGN: complies with IEEE 802.11a/b/g/n.
AP7110SN-GN: complies with IEEE 802.11b/g/n.
AP7110DN-AGN and AP7110SN-GN: provides a maximum rate of 450 Mbit/s.
Maximum ratio combining (MRC)
Maximum-likelihood detection (MLD)
Data unit aggregation, including A-MPDU (Tx/Rx) and A-MSDU (Rx only)
AP7110DN-AGN: supports 802.11 dynamic frequency selection (DFS).
Short GI in 20 MHz and 40 MHz modes
Priority mapping and packet scheduling based on a Wi-Fi Multimedia
(WMM) profile to implement priority-based data processing and
forwarding
Automatic and manual rate adjustment (the rate is adjusted
automatically by default)
WLAN channel management and channel rate adjustment
Automatic channel scanning and interference avoidance
Service set identifier (SSID) hiding
Signal sustain technology (SST)
Unscheduled automatic power save delivery (U-APSD)
Control and Provisioning of Wireless Access Points (CAPWAP) in Fit
AP mode
Automatic login in Fit AP mode
Wireless distribution system (WDS) in Fit AP mode
Mesh networking in Fit AP mode
Compliance with IEEE 802.3u
Auto-negotiation of the rate and duplex mode and automatic
switchover between the Media Dependent Interface (MDI) and Media
Dependent Interface Crossover (MDI-X)
SSID-based VLAN assignment
VLAN trunk on uplink Ethernet ports
4094 VLAN IDs (1-4094) and a maximum of 16 virtual APs (VAPs) for
each radio
AP control channel in tagged and untagged mode
DHCP client, obtaining IP addresses through DHCP
Tunnel data forwarding and direct data forwarding
STA isolation in the same VLAN
Access control lists (ACLs)
Link Layer Discovery Protocol (LLDP)
Uninterrupted service forwarding upon CAPWAP channel disconnection
in Fit AP mode
Unified authentication on the AC in Fit AP mode
AC dual-link backup and VRRP hot backup in Fit AP mode
Native IPv6
IPv4/IPv6 dual stack
IPv6 Portal
IPv6 SAVI
IPv4/IPv6 ACL
Priority mapping and packet scheduling based on a Wi-Fi Multimedia
(WMM) profile to implement priority-based data processing and
forwarding
WMM parameter management for each radio
WMM power saving
Priority mapping for upstream packets and flow-based mapping for
downstream packets
Queue mapping and scheduling
User-based bandwidth limiting
Adaptive bandwidth management (the system dynamically adjusts
bandwidth based on the number of users and radio environment to
improve user experience)
Open system authentication
WEP authentication/encryption
WPA/WPA2-PSK authentication and encryption
WPA/WPA2-802.1x authentication and encryption
WAPI authentication and encryption
Supports wireless intrusion detection system (WIDS), including rogue
AP and STA detection, attack detection, STA/AP blacklist and
whitelist.
Unified management and maintenance on the AC in Fit AP mode
Automatic login and configuration loading, and plug-and-play (PnP)
in Fit AP mode
WDS zero-configuration deployment in Fit AP mode
Mesh network zero-configuration deployment in Fit AP mode
Batch upgrade
Local AP management through the serial interface or using Telnet
Real-time configuration monitoring and fast fault location using the
NMS
System status alarm
Identifies the device type according to the organizationally unique
identifier (OUI) in the MAC address.
Identifies the device type according to the user agent (UA)
information in an HTTP packet.
Identifies the device type according to DHCP options.
The RADIUS server delivers packet forwarding, security, and QoS
policies according to the device type carried in the RADIUS
authentication and accounting packets.
Locates tags manufactured by AeroScout or Ekahau.
Locates Wi-Fi terminals.
Identifies interference sources such as bluetooth devices, microwave
ovens, cordless phones, ZigBees, game controllers, 2.4 GHz/5 GHz
wireless video and audio devices, and baby monitors.
Works with eSight to locate and perform spectrum analysis on
interference sources.
Item
|
Description
|
|
Technical specifications |
Dimensions (H×W×D) |
45 mm×200 mm×200 mm |
Weight |
1.0 kg |
|
System memory |
256 MB DDR3 |
|
Power specifications |
Power input |
DC 12V±10% |
Maximum power consumption |
AP7110DN-AGN: 15.7 W |
|
Environment parameters |
Operating temperature |
-10℃
to +55℃ |
Storage temperature |
-40℃
to +70℃ |
|
Humidity |
5% to 95% (non-condensing) |
|
Waterproof grade |
IP41 |
|
Altitude |
–60 m to 4000 m |
Item
|
Description
|
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Antenna type |
Removable RP-SMA antenna |
|||
Antenna gain |
AP7110DN-AGN |
|||
Maximum number of |
≤256 |
|||
Maximum transmit power |
20dBm |
|||
Maximum number of non-overlapping channels for AP7110DN-AGN |
2.4 GHz |
5 GHz |
||
NOTE:The number of non-overlapping channels allowed varies
in different countries. For details, see the Country codes &
Channels compliance status |
||||
Maximum number of non-overlapping channels for AP7110SN-GN |
802.11b/g 20MHz: 3 |
|||
NOTE:The number of non-overlapping channels allowed varies
in different countries. For details, see the Country codes &
Channels compliance status |
||||
Channel Rate |
802.11b: 1, 2, 5.5, and 11 Mbit/s |
|||
802.11g: 6, 9, 12, 18, 24, 36, 48, and 54 Mbit/s |
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802.11n data rate: |
||||
GI2=800ns |
GI=400ns |
|||
20 MHz (Mbit/s) |
40 MHz (Mbit/s) |
20 MHz (Mbit/s) |
40 MHz (Mbit/s) |
|
6.5 @ MCS10 |
13.5 @ MCS0 |
7.2 @ MCS0 |
15 @ MCS0 |
|
13 @ MCS1 |
27 @ MCS1 |
14.4 @ MCS1 |
30 @ MCS1 |
|
19.5 @ MCS2 |
40.5 @ MCS2 |
21.7 @ MCS2 |
45 @ MCS2 |
|
26 @ MCS3 |
54 @ MCS3 |
28.9 @ MCS3 |
60 @ MCS3 |
|
39 @ MCS4 |
81 @ MCS4 |
43.3 @ MCS4 |
90 @ MCS4 |
|
52 @ MCS5 |
108 @ MCS5 |
57.8 @ MCS5 |
120 @ MCS5 |
|
58.5 @ MCS6 |
121.5 @ MCS6 |
65 @ MCS6 |
135 @ MCS6 |
|
65 @ MCS7 |
135 @ MCS7 |
72.2 @ MCS7 |
150 @ MCS7 |
|
13 @ MCS8 |
27 @ MCS8 |
14.4 @ MCS8 |
30 @ MCS8 |
|
26 @ MCS9 |
54 @ MCS9 |
28.9 @ MCS9 |
60 @ MCS9 |
|
39 @ MCS10 |
81 @ MCS10 |
43.3 @ MCS10 |
90 @ MCS10 |
|
52 @ MCS11 |
108 @ MCS11 |
57.8 @ MCS11 |
120 @ MCS11 |
|
78 @ MCS12 |
162 @ MCS12 |
86.7 @ MCS12 |
180 @ MCS12 |
|
104 @ MCS13 |
216 @ MCS13 |
115.6 @ MCS13 |
240 @ MCS13 |
|
117 @ MCS14 |
243 @ MCS14 |
130 @ MCS14 |
270 @ MCS14 |
|
130 @ MCS15 |
270 @ MCS15 |
144.4 @ MCS15 |
300 @ MCS15 |
|
19.5 @ MCS16 |
40.5 @ MCS16 |
21.7 @ MCS16 |
45 @ MCS16 |
|
39 @ MCS17 |
81 @ MCS17 |
43.3 @ MCS17 |
90 @ MCS17 |
|
58.5 @ MCS18 |
121.5 @ MCS18 |
65 @ MCS18 |
135 @ MCS18 |
|
78 @ MCS19 |
162 @ MCS19 |
86.7 @ MCS19 |
180 @ MCS19 |
|
117 @ MCS20 |
243 @ MCS20 |
130 @ MCS20 |
270 @ MCS20 |
|
156 @ MCS21 |
324 @ MCS21 |
173.3 @ MCS21 |
360 @ MCS21 |
|
175.5 @ MCS22 |
364.5 @ MCS22 |
195 @ MCS22 |
405 @ MCS22 |
|
195 @ MCS23 |
405 @ MCS23 |
216.7 @ MCS23 |
450 @ MCS23 |
|
NOTE:Modulation coding scheme (MCS) index: determines the
spatial flow quantity, modulation, coding rate, and data
rate. |
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Receiver sensitivity of the AP7110DN-AGN |
2.4 GHz |
2.4 GHz |
2.4 GHz |
2.4 GHz |
5 GHz |
5 GHz |
5 GHz |
||
Receiver sensitivity of the AP7110SN-GN |
802.11b (CCK): |
802.11g (non-HT20): |
802.11n (HT20): |
802.11n (HT40): |
For more details, please refer to
HUAWEI
AP7110 Series Access Point Datasheet (PDF).
The AP7110DN-AGN and AP7110SN-GN provide high-performance wireless services for large and medium enterprises in high-density scenarios. The AP7110DN-AGN can be flexibly deployed and work in both fit AP and bridge mode.
In this networking, the AP functions as a fit AP and provides only data forwarding functions. The AC is responsible for user access, AP go-online, AP management, authentication, routing, security, and QoS.
In this networking, the AP connects two or more independently wired or wireless LANs through wireless links to construct a network on which users can exchange data. In Wireless Distribution System (WDS) mode, the AP supports point-to-point (P2P) and point-to-multipoint (P2MP) networking modes. With 5 GHz and 2.4 GHz frequency bands, the AP can implement wireless bridging and access functions.
On the preceding network, APs function as mesh points (MPs) and are fully-meshed to establish an auto-configured and self-healing wireless mesh network (WMN). APs with the gateway function can work as the mesh portal points (MPPs) through which the WMN can provide access to the Internet. Terminals connect to APs to access the WMN. The WMN uses dedicated mesh routing protocols to guarantee high transmission quality and is more applicable to scenarios that require high bandwidth and highly stable Internet connections.